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National LambdaRail Update Joint Techs 2005 Salt Lake City, Utah Dave Jent

National LambdaRail Update Joint Techs 2005 Salt Lake City, Utah Dave Jent. National LambdaRail Update. Layer 1 Phase 1 update Layer 1 Phase II Design Layer1 Phase II Deployment Schedule Layer 2 design Layer 3 design Preliminary Pricing information Operations support. SEA. 8. 8. POR.

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National LambdaRail Update Joint Techs 2005 Salt Lake City, Utah Dave Jent

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  1. National LambdaRail Update Joint Techs 2005Salt Lake City, UtahDave Jent

  2. National LambdaRail Update Layer 1 Phase 1 update Layer 1 Phase II Design Layer1 Phase II Deployment Schedule Layer 2 design Layer 3 design Preliminary Pricing information Operations support

  3. SEA 8 8 POR 8 BOI 8 8 STA 4 4 OGD PIT 8 8 8 DEN 8 8 CLE KAN 8 CHI 8 SVL 8 8 8 8 8 8 WDC 8 8 RAL 8 LAX 8 8 ATL 8 Level3 fiber Other fiber JAC 8 Cisco 15808 terminal Cisco 15808 OADM Cisco 15454 terminal Cisco 15454 OADM 8 8 4 4 National LambdaRail Update Phase I Layer 1 Deployment

  4. 15808 15808 West East 6509 CRS-1 NLR demarc 15500 15500 15500 Metro and Regional Optical Networks DWDM 10GE or OC192 1GE National LambdaRail Update Phase I PoP Layout

  5. Cisco 15808 terminal Cisco 15808 OADM Cisco 15454 terminal Cisco 15454 OADM 8 8 4 4 National LambdaRail Update Phase II Layer I Deployment SYR 4 4 4 NYC 4 4 OGD CLE DEN 4 KAN SLC 4 4 WDC 4 4 RAT LAX 4 4 TUL 4 PHO ALB 4 4 4 4 DAL 4 ELP 4 4 PEN 4 4 JAC 4 4 4 4 4 4 4 4 Level3 fiber WilTel fiber BAT 4 SAA 4 HOU

  6. 15454 15454 West East 6509 CRS-1 NLR demarc 15500 15500 15500 Metro and Regional Optical Networks DWDM 10GE or OC192 1GE National LambdaRail Update Phase II PoP Layout

  7. Cisco 15808 terminal Cisco 15808 OADM Cisco 15454 terminal Cisco 15454 OADM 8 8 4 4 National LambdaRail Update Complete NLR Layer I Network SEA 8 8 POR 8 BOI SYR 8 8 4 4 STA 4 4 NYC 4 4 4 OGD PIT 8 8 8 DEN KAN 8 8 CLE CLE 8 CHI 8 SVL 8 4 8 8 8 SLC 4 4 8 8 WDC 4 8 8 4 RAT LAX RAL 4 8 LAX 8 4 TUL 4 PHO ALB 4 8 4 ATL 4 8 4 DAL 4 ELP 4 4 PEN 4 4 JAC 8 4 4 4 4 4 4 4 4 Level3 fiber WilTel fiber BAT 4 SAA 4 HOU

  8. National LambdaRail UpdatePhase 2 installation optical hardware • Houston-El Paso • Projected Completion Date: 7/6/2005 • KC-Houston • Projected Completion Date: 6/27/2005 • El Paso-LA • Projected Completion Date: 8/16/2005 • Houston-Baton Rouge • Projected Completion Date: 7/13/2005 • Ogden-SLC • Projected Completion Date: 8/18/2005

  9. National LambdaRail UpdatePhase 2 installation optical hardware • El Paso-Denver • Projected Completion Date: 8/30/2005 • DC-NYC • Projected Completion Date: 7/22/2005 • NYC-Cleveland • Projected Completion Date: 8/3/2005 • Jacksonville-Baton Rouge • Projected Completion Date: 9/14/2005

  10. Cisco 6509 switch National LambdaRail Update Layer 2 Network Design SEA CHI NYC PIT DEN CLE KAN SVL WDC RAL LAX ALB TUL PHO ATL ELP JAC BAT HOU 10GE wave

  11. Weight: 270 lb fully loaded NLR L2 Hardware Cisco Catalyst 6509-NEBs-A Chassis Height: 36.65 in. 93.09cm Chassis Width: 17.20 in. 43.68cm Chassis Depth: 20.32 in. 51.61cm DC Power: 2 -2500 WDC power supplies

  12. NLR Layer 2 Goals • Facilitate point to point or point to multipoint Ethernet transport at rates at or above 1Gbps. • Provide detailed performance measurement and real time statistics which allow the user to fully understand the performance of the transport network. • Provide flexible infrastructure and tools which allow users to make, or signal for, service level changes to their individual Layer 2 paths, dramatically reducing provisioning delays while making more efficient use of the network. • Refine these services, over time, to meet the specific needs of the research community; even where those developments would differ from what a standard service provider would be willing to do.

  13. NLR L2 Initial Services National Peering Fabric – Create a national distributed exchange point, with a single broadcast domain for all members. Initial user ports will be 1GE. Dedicated Point to Point Ethernet – VLAN between 2 members with dedicated bandwidth from sub 1G to multiple 1G. Best Effort Point to Multipoint – Multi-point VLAN with no dedicated bandwidth

  14. National LambdaRail Update Layer 3 Network Design SEA CHI NYC DEN PIT WDC RAL LAX PHO TUL ALB ATL BAT JAC HOU Cisco CRS-1 router 10GE wave

  15. Weight: • 330.8 lb (138 kg) chassis with fans, PDUs, and blanks (as shipped) • 650 lb (294.8 kg) chassis as shipped, including power shelves, and all line cards and route processors NLR L3 Hardware Cisco CRS-1 Half-rack Chassis Height: 38.5 in. 99.06cm, (with base cosmetics) Chassis Width: 17.5 in. 44.45 cm Chassis Depth: 36.6 in 93.0 cm; (40.5 in. 100.844 cm, including full cosmetics) Clearance: 3 feet front and back required. Four-post mounting. DC Power: 7900 WDC 3 65A feeds per power supply

  16. NLR Layer 3 Goals • Create a national infrastructure for network and application experiments, in a way that is not possible with current production commodity networks, network test-beds, or production R&E networks. • Provide an advanced national “breakable” infrastructure to try out technologies and configurations. In addition, researchers will have the opportunity to create experiments and test them using live production traffic in a national backbone provider footprint. • Provide a flexible layer 3 network supporting experiments for anything from requiring total control of the hardware to requiring access to active real-time production traffic. • Support researchers with a level of communication and visibility to its users not seen before in other networks.

  17. NLR Layer 3 Services BGP to each member ISIS core IGP IPv4 Multicast: PIM, MSDP, MBGP by default. IPv6: BGP peering by default Security: Each member will be able to black-hole traffic to one of their hosts using special BGP community Each member gets a 10GE connection and a VLAN backhauled over the L2 network to a second node.

  18. Preliminary pricing • Pricing is based on a per segment cost. • The pricing model includes the number of segments as well as capacity replacement, maintenance, operations and equipment replacement costs. There are pricing models for members as well as non-members. One example: • 1gb circuit from Chicago to Washington DC would use three L1 segments and three L2 segments. This would cost approximately $23,500 upfront and $20,940/year.

  19. NLR Operations Support • NLR Service Desk at Indiana University • noc@nlr.net • http://noc.nlr.net • Layer 1 services provided by CENIC • Layer 2/3 services provided by Indiana University • Experimental Support services provided by MCNC

  20. Thanks to: • Chris Griffin • Steve Cotter • Dave Reese • Caren Litvanyi • Jon-Paul Herron • Grover Browning

  21. N L R light the future For more information… NLR puts the control, the power and the promise of experimental Contact Tom West twest@nlr.net noc@nlr.net NLR: putting the control, the power and the promise of experimental network infrastructure in the hands of our nation’s scientists and researchers.

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